FR2988077A1 - METALLIC PACKAGING WITH TUBULAR PART - Google Patents

Abstract

The present invention relates to a metal package comprising a tubular part (1) defining a longitudinal axis (1 '), which tubular part (1) comprises a monobloc annular structure (10) composed of a molding (11) or several moldings ( 11) which are provided on a plane (13) extending perpendicularly to said longitudinal axis (1 ') and on the circumference of said tubular portion (1), to form an annular lower surface (12) against which a handling member is intended to come to support.

Description

The present invention relates to the field of packaging, and in particular that of metal packaging. The design of a package must take into account the constraints related to its manufacture, but also to its many manipulations in the filler from its reception to final packaging operations. However, packaging, depending on their constituent material, are obtained by manufacturing techniques that generate structural constraints leading to the implementation of conveying facilities which are respectively dedicated to them. In this regard, the tubular portion forming the neck of the packages (such as bottles or flasks) made of plastic generally comprises an annular ring, protruding on the circumference, designated "transport ring", useful for their individual care .

These plastic packaging can thus be held, manipulated and / or transferred by the positioning of a fork-shaped handling member, supported under this transport ring. In practice, for such plastic packages, the neck and its transport ring are formed simultaneously, for example on a preform (semi-finished part obtained by injection) before finishing by injection blow molding or by extrusion blow molding. Packaging made of a metallic material, for example steel or aluminum, do not have such an annular flat ring because of the technical constraints related to the forming of the metal. The manufacture, handling and filling of such metal packaging and lead to implement dedicated handling means. Therefore, for the filler, the passage from plastic packaging to metal packaging requires significant investment, especially for the transformation of the handling means. In view of the foregoing, the Applicant has developed a new metal packaging structure that is suitable for handling in a facility usually dedicated to plastic packaging.

For this, the metal package according to the invention comprises a tubular part defining a longitudinal axis, which tubular portion comprises a monobloc annular structure composed of one or more moldings which are formed on a plane extending perpendicularly to said longitudinal axis and on the circumference of said tubular portion, to form an annular bottom surface against which a body for handling is intended to come to bear. The one or more moldings are advantageously protruding inwardly ("inward") and / or outwardly ("outgoing") from the tubular portion. According to a particular embodiment, the one-piece annular structure comprises a continuous annular molding extending over the entire circumference of the tubular portion. In this case, the continuous annular molding has an open rib shape, opening towards the inside or towards the outside of the tubular part; alternatively, this continuous annular molding has a closed rib shape, constituting a one-piece collar projecting outwardly which is formed of two planar annular rings bearing against one another and connected by a fold line peripheral.

According to another embodiment, the one-piece annular structure comprises at least one variation of curvature in the plane perpendicular to the longitudinal axis passing through said annular structure. This monobloc annular structure thus has discontinuities of curvature, with advantageously a variation of the horizontal radial distance around the horizontal axis. This embodiment aims to introduce, at one or more points of the circumference of the tubular part, a geometrical discontinuity at the level of the monobloc annular structure, in particular a geometrical discontinuity in the molding, at least one of the moldings or between two moldings, which consolidates this part of the package and significantly increase the resistance to vertical effort. This discontinuity can take the form of more or less complex curves, and preferably unmolded tubular portion portions (or vertical segments) extending in the continuity of the shape of the overlying and underlying parts of the tubular portion by relative to this monobloc ring structure. In other words, the initial section of the tubular portion is deformed so as to spare the molding or moldings intended to constitute the monobloc annular structure. In this case, the one-piece annular structure comprises at least one molding extending over only a portion of the circumference of the tubular portion. This monobloc annular structure advantageously comprises several moldings which are distributed over the circumference of the tubular part, in a regular or non-regular manner (homogeneous or non-homogeneous). Preferably, the one-piece annular structure comprises moldings which are each outwardly projecting, and which are evenly distributed over the circumference of the tubular part, in the plane perpendicular to the longitudinal axis passing through said annular structure. Preferably, the one-piece annular structure comprises one or more notches, formed on the molding or on at least one of the moldings, and / or separating two moldings; these notches advantageously have a vertical axis or at least approximately vertical, and are advantageously formed by an unmolded section of the tubular portion. Preferably, a notch is formed incoming for one or more outgoing moldings; a notch is formed outgoing for one or more moldings incoming. The bottom of the notch or at least one of the notches extends in the circumference, or at least approximately in the circumference, of the tubular portion.

According to a particular embodiment, the metal package consists of a container (for example a bottle) having a neck forming said tubular portion; and this neck is terminated by a neck provided with an upper part for receiving a cap and a lower part having the monobloc annular structure.

The invention also relates to a method for the manufacture of a metal package as defined above, which method consists of: (a) manufacturing the tubular portion of said package, then (b) locally deforming said tubular portion to constitute the one-piece annular structure composed of one or more moldings. The invention will be further illustrated, without being limited in any way, by the following description in relation to the accompanying drawings, in which: FIG. 1 is a general and perspective view of a tubular part forming the neck of a package of which the neck is provided with a one-piece annular structure constituted by a continuous annular molding in the form of an open rib whose convexity is oriented towards the outside; - Figure 2 is a side view of the neck of Figure 1; - Figure 3 is a vertical and partial sectional view of a tubular portion similar to that illustrated in Figure 2, at the monobloc annular structure which is here of curved section; - Figure 4 is a vertical sectional view of an alternative embodiment of Figure 3, wherein the one-piece annular structure consists of an open rib, here of dihedral section; - Figure 5 is a vertical sectional view of another embodiment of Figure 3, wherein the one-piece annular structure consists of a closed rib, here of flat section, corresponding to a molded "crushed" yet "compressed" bead "; - Figure 6 is a perspective view of a neck of another possible embodiment of a package according to the invention, provided here with several moldings each extending on an angular sector of its circumference; Figure 7 is a side view of the neck of Figure 6; FIG. 8 is a detailed and enlarged view of FIG. 7, showing the section of the unmolded neck separating two moldings; - Figures 9 to 14 are perspective views of a tubular portion of a metal package, each illustrating a particular arrangement of the moldings constituting the one-piece annular structure; - Figure 15 is a top view of a tubular portion of a metal package, the one-piece annular structure comprises moldings separated by regularly distributed notches; FIG. 16 schematically shows some possible forms for the notches, seen from above; - Figure 17 shows an alternative embodiment of the invention, according to a vertical sectional plane, wherein the one-piece annular structure comprises at least one molding consisting of a rib open to the outside. Figures 1 and 2 show a part of a metal package. Such a metal package is for example made of aluminum or steel.

This metal package advantageously consists of a container or a container, intended to receive for example a liquid product (including drinks), pasty or solid (including powders or granules). Such a metal package consists for example of a bottle, a bottle or a can. This package advantageously comprises a body or belly (not shown), surmounted by a tubular portion 1 (Figures 1 and 2) constituting a neck, terminated by a neck 2 opening through a terminal opening 3. The tubular portion 1 has a longitudinal axis 1 ', here oriented vertically. This tubular portion 1 is constituted by a one-piece metal wall 4 which defines its circumference and defines an inner conduit C (Figure 3). The horizontal section of this tubular portion 1, perpendicular to the longitudinal axis 1 ', is here circular in shape, but it could equally well be oval, rectangular or square for example. The upper end 5 of the tubular portion 1 is constituted here by an outwardly oriented peripheral hem defining the end opening 3 (Figures 1 and 2).

On the side of this upper end 5, an upper portion 2a of the neck 2 comprises means for receiving a plug (not shown), in this case a helical thread 6. At a distance from this same upper end 5, a part lower 2b of the neck 2 (directly underlying the upper part 2a) comprises a monobloc annular structure 10 composed of a bead 11 to form an annular lower surface 12 against which a handling member can come to bear. This handling member (not shown) advantageously has a fork shape, of the type conventionally encountered in the field of the handling of plastic bottles provided with a transport ring. In this regard, the molding 11 is formed on a plane 13 (Figure 2) extending perpendicularly to the longitudinal axis 1 'above and on the circumference of the tubular portion 1.

By "molding" is meant in particular a ribbing in the one-piece metal wall 4 (commonly referred to in English as "bead"), recessed or raised, obtained for example by striking or embossing. The molding 11 is continuous, extending over the entire circumference of the tubular portion 1. As illustrated by Figures 1 to 3, the continuous annular molding 11 is here provided protruding outwardly of the tubular portion 1. As can be seen in FIG. 3, this continuous annular molding 11 has an open rib shape, opening towards the inside of the tubular part 1. The vertical section of this continuous annular molding 11 is identical or at least approximately identical on its circumference, without geometrical rupture (Figure 3). According to Figure 3, this vertical section is here of curved shape, for example in a semi-circle or half-oval, whose convexity is oriented outwardly. FIG. 4 shows an alternative embodiment of a continuous annular bead 11 constituting a monobloc annular structure 10. The section of this continuous annular bead 11 consists here of two sections: an inclined upper section 14, diverging with respect to the longitudinal axis 1 'from top to bottom, and - a horizontal lower section 15, extending perpendicular to the longitudinal axis 1' and whose lower face constitutes the annular lower surface 12 for handling.

In other words, the continuous annular molding 11 consists of a frustoconical upper part and a lower part in the form of a horizontal ring. According to yet another embodiment shown in Figure 5, the continuous annular molding 11 has a form of closed rib, constituting a monobloc collar provided projecting outwardly. Such a continuous annular molding 11, also called "compressed molding" or "compressed bead" is formed of two planar annular rings 16 resting on one another, the lower one forming the annular lower surface 12 for handling and the other upper, which are connected by a peripheral fold line 17. Figures 6 to 8 show another embodiment of the invention in which the one-piece annular structure 10 comprises, on the circumference of the tubular portion 1, at least one variation of curvature in the plane 13 perpendicular to the longitudinal axis 1 'passing through said annular structure 10. Such an embodiment makes it possible to consolidate the neck 2 of the package, and to significantly increase the resistance at the vertical force at the level of this monobloc annular structure 10.

For this purpose, the one-piece annular structure 10 comprises a "discontinuous molding" 11 extending on the circumference of the tubular portion 1. This one-piece annular structure 10 thus comprises a plurality of distinct moldings 11 which are distributed, in a homogeneous or regular manner, over the circumference of the tubular portion 1. In this case, these moldings 11 each extend over a portion of the circumference of the tubular portion 1. The one-piece annular structure 10 here comprises three moldings 11, generally extending each on a horizontal angular sector of the order of 5 ° to 120 °, and preferably each on a horizontal angular sector of the order of 60 ° to 110 °. These moldings 11 are each outwardly projecting, and they are evenly distributed over the circumference of the tubular portion 1 and in the plane 13 perpendicular to the longitudinal axis 1 '.

The moldings 11 together form the lower bearing surface 12.

The vertical section of these moldings 11 may be suitably adapted, for example curved or dihedral as described above. These moldings 11 are separated, in pairs, by a notch 20 consisting of an unmolded section of the tubular portion 1 (here three in number). These unmolded sections 20 thus form stiffening zones for the one-piece annular structure 10 against the vertical forces. Each unmolded section 20 consists of a segment of the neck 2 (or of the tubular part 1), extending along a vertical axis 20 '(FIG. 8) and in the continuity of the section of the directly overlying portions and under -cente of this neck 2 (without discontinuity or rupture of the section). These unmolded sections 20 thus extend in the circumference of the tubular portion 1.

Similarly, the bottom 20a of each notch 20 thus advantageously extends in the circumference of the tubular portion 1. Each notch 20 is delimited laterally by the ends 20b opposite two moldings 11 juxtaposed. On a horizontal section, the ends 20b of each notch 20 extend for example parallel to one another, or diverge towards the periphery, as illustrated below in connection with FIG. 16. Each notch 20 may still have a section in an arc. The method for manufacturing the metal package according to the invention advantageously comprises the following steps: (a) the manufacture of the tubular part 1 of the package, then (b) the forming of the monoblock annular structure 10 in said tubular part 1, to form the molding or moldings 11, for example in the form of a local and discontinuous shaping operation of the various moldings.

FIGS. 9 to 14 show examples of alternative embodiments of this one-piece annular structure 10 comprising a plurality of outwardly oriented moldings 11, separated in pairs by an unmolded section 20 of the tubular part 1. In these figures, the one-piece annular structures 10 respectively comprise: FIG. 9: three moldings 11 each extending over a horizontal angular sector of the order of 60 ° to 100 °, separated by unmolded sections 20 each extending over a sector horizontal angle of the order of 20 ° to 60 °, - Figure 10: six moldings 11 each extending over a horizontal angular sector of the order of 30 ° to 55 °, separated by unmolded sections 20 ' each extending over a horizontal angular sector of the order of 5 ° to 30 °; - Figure 11: three moldings 11 each extending over a horizontal angular sector of the order of 30 ° to 60 °, separated by unmolded sections 20 each extending over a horizontal angular sector of the order of 60 ° at 90 °, - Figure 12: six moldings 11 each extending on a horizontal angular sector of the order of 30 ° to 50 °, separated by unmolded sections 20 each extending over a horizontal angular sector of the order of 10 ° to 30 °; - Figure 13: three moldings 11 each extending on a horizontal angular sector of the order of 10 ° to 30 °, separated by unmolded sections 20 each extending over a horizontal angular sector of the order of 90 ° to 110 °, - Figure 14: six moldings 11 each extending over a horizontal angular sector of the order of 10 ° to 30 °, separated by unmolded sections 20 each extending over a horizontal angular sector of the order of 30 ° to 50 °.

FIG. 15 still shows, viewed from above, a peripheral annular structure 10 comprising several moldings 11 separated by notches 20. In this FIG. 15, it can be seen that the bottom 20a of each notch 20 advantageously extends in the circumference of the neck 2.

Alternatively, this bottom 20a of each incoming notch 20 may extend: in a first case, in the annular space defined by the moldings 11 and at a distance from the circumference of the neck 2, corresponding to a kind of stamping partial, as represented by the bottom designated by the reference 20a1, or 2 9880 77 10 - in a second case, in the internal volume defined by the tubular portion 1, as shown by the bottom designated by the reference 20a2. In the first case, the one-piece annular structure 10 consists of a kind of continuous annular molding 11 in which is formed a plurality of notches 20. In the second case, the one-piece annular structure comprises an alternation of moldings projecting towards the inside and out; thus obtaining a combination of incoming / outgoing moldings with respect to the tubular portion.

The manufacture of such a monoblock annular structure advantageously comprises - a forming operation of a continuous annular molding, followed by - a forming operation of the notch or notches, for example by stamping. This gives a kind of continuous annular molding 11 which is interrupted locally, and on its circumference, by notches 20. These notches 20, seen from above, may have any other form obtained by a suitable tool, as illustrated on Thus, these notches 20 may have, for example, a rectangular shape (A or B), a trapezoidal shape (C or D) or a circular arc shape (E). Figure 17 shows an alternative embodiment of the invention, wherein the one-piece annular structure 10 comprises a bead 11 consisting of an open-out rib. This molding 11 is here in the form of a continuous annular molding. In variations of embodiment, a plurality of outwardly open moldings, which are arranged in the same plane perpendicular to the axis of the neck and which are separated by unmoulded sections or by protruding moldings, can also be envisaged. outside. In general, the metal packaging according to the invention is simple to handle, especially on a dedicated facility usually for the handling of plastic packaging.

Claims (12)

REVENDICATIONS1. Metal package comprising a tubular part (1) defining a longitudinal axis (1 '), characterized in that said tubular part (1) comprises a monobloc annular structure (10) composed of a molding (11) or of several moldings (11). ) which are provided on a plane (13) extending perpendicularly to said longitudinal axis (1 ') and on the circumference of said tubular portion (1), to form an annular bottom surface (12) against which a handling member is intended to come to support. 2. A metal bottle according to claim 1, characterized in that the one-piece annular structure (10) comprises one or more moldings (11) provided projecting inwardly and / or outwardly of the tubular portion (1). 3. Metal package according to any one of claims 1 or 2, characterized in that the one-piece annular structure (10) comprises a continuous annular bead (11) extending over the entire circumference of the tubular portion (1). 4. Metal package according to claim 3, characterized in that the continuous annular molding (11) has an open rib-shaped opening opening inwards or outwards of the tubular part (1). 5.- Metal package according to claim 3, characterized in that the continuous annular molding (11) has a closed rib shape, constituting an integral collar projecting outwardly which is formed of two planar annular rings (16) supported on each other and connected by a peripheral fold line (17). 6. Metal package according to any one of claims 1 or 2, characterized in that the one-piece annular structure (10) comprises at least one variation of curvature (20) in said plane (13) passing through said annular structure (10). ). 30 7. Metal package according to claim 6, characterized in that the one-piece annular structure (10) comprises at least one molding (11) extending over only a portion of the circumference of the tubular portion (1). 8.- Metal package according to claim 7, characterized in that the one-piece annular structure comprises a plurality of moldings (11) which are distributed over the circumference of the tubular portion (1). 9.- Metal package according to any one of claims 6 to 8, characterized in that the monobloc annular structure (10) comprises one or more notches (20). 10. Metal package according to claim 9, characterized in that the bottom (20a) of the notch (20) or at least one of the notches (20) extends in the circumference, or at least approximately in the circumference of the tubular part (1). 11. Metal package according to any one of claims 1 to 10, characterized in that it consists of a container having a neck (1) forming said tubular portion, and in that said neck (1) is terminated by a neck (2) having an upper portion (2a) for receiving a plug and a lower portion (2b) having the one-piece annular structure (10). 12. A method for manufacturing a metal package according to any one of claims 1 to 11, characterized in that it consists: (a) to manufacture the tubular portion (1) of the package, then (b) ) deforming said tubular portion (1) to form the one-piece annular structure (10) composed of one or more moldings (11).